Quark-Gluon Plasma and New State of Matter at High Energy Colliders

Delve into the realm of high-energy physics at nucleus-nucleus colliders, with a focus on the discovery of deconfined partonic matter and the investigation of parallel worlds. Explore the recent insights, emerging topics, and new phenomena observed in ultra-intense collisions. Uncover the properties of deconfined partonic matter, structures of the QCD phase diagram, and the evolving scenario of the early universe. Discover the potential links to neutron stars, baryon density, and color superconductivity, while pondering the mysteries of hadron physics in the context of high-energy A+A collisions.

• High Energy Physics
• Quark-Gluon Plasma
• Hadron Physics
• Nucleus-Nucleus Colliders
• Deconfined Matter

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1. Physics at High Energy Nucleus-Nucleus Colliders: Prospect and Relevance to Hadron Physics Kenta Shigaki (Hiroshima University ) Hadron Physics Symposium April 17, 2014 Nagoya University

2. Presentation Outline physics at high energy A+A colliders discovery of deconfined partonic matter looking into parallel world : other side of boundary recent insight and next steps emerging topics new: mysteriously behaving p(d)+A collisions brand new: ultra-intense U(1) magnetic field summary and concluding remarks Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 1/34

3. ~ 25 Years of QGP Hunting long expeditions on QCD phase diagram Early Universe from Bevalac/SIS/AGS/SPS to RHIC/LHC from high density regime to high temperature regime Energy Density (Temperature) Critical Temperature ~ 170 MeV deconfined partonic matter discovered at RHIC Deconfined Partonic Phase (Quark-Gluon Plasma) now providing new stage to look into: properties of deconfined partonic matter structures of QCD phase diagram scenario of early universe evolution hadrons as quark composites Tri-Critical point High Energy A+A Collisions Hadron gas Color Super-Conductivity? Color-Flavor Locking? Neutron Star Nucleus Baryon Density Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 2/34

4. Relativistic Heavy Ion Collider at BNL 2 independent super-conducting synchrotrons up to 100 A GeV Au and/or 250 GeV (polarized) p Au+Au/Cu+Cu/U+U/d+Au/p+p (/p+Au/3He+Au/ ) 4 (presently 2) complementary experiments Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 3/34

5. RHIC Outcomes: New State of Matter partonic: quarks degrees of freedom, screening constituent quark number scaling of collective motion J/ suppression dense: energy loss of (even heavy) quarks jet quenching (high pTsuppression) jet modification The matter is dense The matter is strongly coupled The matter may melt and/or regenerate J/ s strongly coupled: perfect fluidity hydro-dynamical collective motion hot: thermally radiative thermal (virtual) photons The matter modifies jets The matter is hot Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 4/34

6. Photons ( and *) as Thermometer real and virtual photon methods consisitent Au+Au: thermal excess ~ exponential with slope 221 19 19 MeV cf. p+p data consistent with pQCD down to low pT PHENIX (A. Adare et al.), PRL 104, 132301 (2010) NLO pQCD (W. Vogelsang) Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 5/34

7. Initial Temperature Evaluation initial temperature > data slope ~ 220 MeV 300 600 MeV (model dependence within factor 2) hydro-dynamic description w/ 0= 0.15 0.6 fm/c slope ~ 304 51 MeV at LHC-ALICE slope transition temperature ALICE (M. Wilde et al.), Nucl.Phys. A904-905, 573c (2013) PHENIX (A. Adare et al.), PRC 81, 034911 (2010) cf. phase transition predicted at ~ 170 MeV Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 6/34

8. Boundary Crossed at RHIC RHIC RHIC F. Karsch, Lect. Notes Phys. 583 (2002) 209 Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 7/34

9. Uniqueness of QCD Phase Transition only possible boundary to experimentally cross to prove (or disprove) paradigm of universe evolution not just to catch residue K. Homma, 2008/09 Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 8/34

10. Looking into Parallel World phenomena with restored symmetry in case of QCD phase transition: chiral symmetry diminishing effective (light) quark masses probably lower hadron masses typically, light vector meson mass modification leptonic decay channels with short life time e.g. (ss) e+e (0.03 %) T.Hatsuda, H.Shiomi and H.Kuwabara Prog. Theor. Phys. 95 (1996) 1009 ref. H. Enyo on J-PARC E16 experiment Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 9/34

11. Relevance and Complementarity different regimes of chiral symmetry restoration high density neutron/quark star low/intermediate energy A+A normal nucleus high energy A+A early universe high temperature synergy with lower energy experiments e.g. / in nuclear matter at J-PARC Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 10/34

12. Further Adventure beyond Boundary RHIC LHC RHIC free gas ? perfect fluid RHIC LHC RHIC F. Karsch, Lect. Notes Phys. 583 (2002) 209 Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 11/34

13. A Large Ion Collider Experiment the nucleus-nucleus collision experiment at LHC 36 countries; 131 institutes; ~1,200 members as of November, 2013 CMS LHCb ALICE ATLAS, LHCf Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 12/34

14. Highest Energy A+A Collision 2.76 TeV Pb+Pb in 2010 and 2011 14 times higher sNNthan at RHIC ~ 5.1 TeV in 2015; design energy at 5.5 TeV Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 13/34

15. Abundant Particle Production dNch/d = 1,580 80 (sys) in 2.76 TeV Pb+Pb high side of predictions faster growth with s(NN)than in p+p i.e. sNNdependent nuclear amplification ALICE (K. Aamodt et al.), PRL 106, 032301 (2011) back at RHIC Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 14/34

16. Prominent Probes at Higher Energies high transverse momentum phenomena, e.g. jets heavy flavors (charm and beauty) demonstrated very powerful at ALICE/ATLAS/CMS Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 15/34

17. Jet Modification at LHC asymmetric di-jets and even mono-jets (!) high pThadron ATLAS quenched jet hadrons (jet) lost jet energy distributed very widely quark R>0.8 (anti-)quark CMS hadrons (jet) R > 0.8 ~ /4 enhancement at low pT high pThadron Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 16/34

18. Jet Energy Loss and Redistribution PHENIX yield in Au+Au yield in p+p = ln(1/zT) zT= pThadron/pTphoton IAA= high zT low zT | - | < /6 | - | < /3 | - | < /2 thermal-like redistribution suggested narrow cone high zTsuppression wide cone low zTenhancement Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 17/34

19. Survived Jets Un- (or Little-) Modified shape after energy loss consistent with in vacuum energy ratio in different cone radii (R=0.2)/ (R=0.3) both for peripheral and central collisions no sign of jet broadening good agreement with a model with energy loss Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 18/34

20. More Differential: Mass Hierarchy? charm and beauty mesons with compatible <pT> open charm (average of D , D+, D +), ALICE non-prompt J/ ( B), CMS possible indication of weaker beauty suppression Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 19/34

21. sPHENIX: Feedback to RHIC from LHC super PHENIX fast, selective, precise high to mid trans. mom. large acceptance PHENIX fast, selective, precise mid to low trans. mom. limited acceptance detectors by US-Japan 2013 revision with BaBar solenoid Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 20/34

22. Aiming at (Partial) Start in 2019 former BaBar solenoid transferred from SLAC first sPHENIX test beam at FNAL in 2014/02 Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 21/34

23. Not Only Jet: Day-1 Upgrade physics with e / h / / identification QCD debye screening via e+e from quarkonia photon jet correlation via direct parton behavior via multi-variable cut e 5 GeV/c + 5 GeV/c photon pair from Geant4 high performance PID pre-shower detector (Hiroshima, Tsukuba, RIKEN) Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 22/34

24. Key Project at BNL in Next Decade Years Beam Species and Energies Science Goals New Systems Commissioned Heavy flavor flow, energy loss, thermalization, etc. Quarkonium studies QCD critical point search Electron lenses 56 MHz SRF STAR HFT STAR MTD 15 GeV Au+Au 200 GeV Au+Au 2014 present RHIC/PHENIX Extract /s(T) + constrain initial quantum fluctuations More heavy flavor studies Sphaleron tests Transverse spin physics p+p at 200 GeV p+Au, d+Au, 3He+Au at 200 GeV High statistics Au+Au PHENIX MPC-EX Coherent e-cooling test 2015-16 2017 No Run Low energy e-cooling upgrade STAR ITPC upgrade Partial commissioning of sPHENIX (in 2019) Search for QCD critical point and onset of deconfinement 2018-19 5-20 GeV Au+Au (BES-2) Complete sPHENIX installation STAR forward upgrades 2020 No Run Long 200 GeV Au+Au with upgraded detectors p+p, p/d+Au at 200 GeV Jet, di-jet, -jet probes of parton transport and energy loss mechanism Color screening for different quarkonia 2021-22 sPHENIX 2023-24 No Runs Transition to eRHIC ref. Y. Akiba on (s and) ePHENIX Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 23/34

25. ALICE (-Japan) in Next Decade ref. poster by T. Gunji on ALICE upgrade plans first: jet and heavy flavor 2 3 high speeding in 2013 2014 shutdown upgrade: high resolution EM calorimeter (Hiroshima) new: di-jet calorimeter (Tsukuba) next: low transverse momentum phenomena 100 high speeding in 2018 2019 shutdown upgrade: TPC (Tokyo), inner tracker also: forward physics additional detectors in 2018 2019 shutdown new: calorimeter (Tsukuba, Tokyo), muon tracker Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 24/34

26. p(d)+A Gathering New Attention originally as reference to bridge p+p and A+A initial state nuclear effects, e.g. modified PDF final state cold nuclear matter effects suppression of hadrons with large pT Au+Au at sNN= 130 GeV lack of suppression d+Au at sNN= 200 GeV Au+Au at sNN= 200 GeV PRL 88 (January, 2002) d+Au at sNN= 200 GeV PRL 91 (August, 2003) Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 25/34

27. Something More Complicated (?) original thought: cold nuclear matter, i.e. not partonic not dense not strongly coupled not hot indications of strongly coupled partonic matter?? Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 26/34

28. Discovery in p+p and p+A at LHC ridge in p+p and double ridge in p+Pb long range angular correlations in near and away sides = high multiplicity p+Pb low multiplicity p+Pb long range correlation explained by collective flow from initial fluctuation strongly coupled matter already in p+p and p+A? Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 27/34

29. Hydro-like Behaviors in p+Pb harder particle spectra at higher multiplicity increasing effect with particle mass better described by models with hydrodymanics Blast-Wave: PRC 48,2462 (1993) EPOS LHC: arXiv:1306.0121 [hep-ph] Krakow: PRC 85,014911 (2012) DPMJET: arXiv:hep-ph/0012252 Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 28/34

30. Quark Fluid in p+Pb? baryon enhancement in intermediate pT understood via quark recombination in A+A similar evolution with multiplicity Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 29/34

31. Another Relevance/Complementarity different mechanisms of hadron production quark recombination/coalescence near zero strangeness chemical potential at RHIC/LHC B. Z. Kopeliovich et al., Int. J. Mod. Phys. E18, 1629 (2009) quark pair production (color string fragmentation) synergy with e++e /p+p experiments ref. K. Miyabayashi on e++e collider experiments Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 30/34

32. Brand New Topic: Ultra-Intense Field intense U(1) magnetic field naturally expected with moving charged sources ~ 1015T at LHC, ~ 1014T at RHIC cf. magnetar surface ~ 1011T Magnetic Field possible non-linear QED behaviors above electron critical magnetic field eme2= 4 109T e.g. , e+e , birefringence, other interesting physics under discussion, e.g. chiral magnetic effects lower QCD critical temperature quark synchrotron radiation Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 31/34

33. (Low Mass e+e) Polarization anisotropic decay w.r.t. magnetic field e * * ? e+ feasibility study based on QED calculations vacuum polarization tensors under magnetic field summation for infinite Landau levels photon momentum up to ~ GeV ref. K.-I. Ishikawa, K. Shigaki et al., Int. J. Mod. Phys. A28, 1350100 (2013) anisotropy ~ o(10 1) Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 32/34

34. Work in Progress (at ALICE/PHENIX) mass regions (not) expecting polarization e.g. low mass not: dominated by Dalitz decay Pb-Pb SNN = 2.76 TeV ALICE work in progress 22/03/2013 EP resolution not corrected 0 < Mee< 30 MeV/c2 120 < Mee< 300 MeV/c2 300 < Mee< 500 MeV/c2 analysis ongoing, e.g. background understanding high statistics high pTdata set to come Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 33/34

35. Summary and Concluding Remarks deconfined quarks/gluons now on pr parat unique to look into parallel world early universe phase transition experimentally reverted steadily revealing partonic matter properties next generation already in preparation/discussion ALICE upgrade, super PHENIX, J-PARC-HI ever emerging new (and brand new) topics mysteries in p(d)+A ultra-intense U(1) magnetic field established and unique: relevant to broader physics complementary with e++e /p+p/lower energy Hadron Physics Symposium Physics at High Energy A+A Colliders K.Shigaki 2014/4/17 34/34